Oxidation of methylamine
Peter Glarborg, Charlotte S. Andreasen, Hamid Hashemi, Rachel Qian, Paul Marshall
Abstract
Abstract A detailed chemical kinetic model for oxidation of methylamine has been developed, based on theoretical work and a critical evaluation of data from the literature. The rate coefficients for the reactions of CH NH + O CH NH / CH NH + HO , CH NH + H CH + NH , CH NH CH NH , and CH NH + O CH NH + HO were calculated from ab initio theory. The mechanism was validated against experimental results from batch reactors, flow reactors, shock tubes, and premixed flames. The model predicts satisfactorily explosion limits for CH NH and its oxidation in a flow reactor. However, oxidation in the presence of nitric oxide, which strongly promotes reaction at lower temperatures, is only described qualitatively. Furthermore, calculated flame speeds are higher than reported experimental values; the model does not capture the inhibiting effect of the NH group in CH NH compared to CH . More work is desirable to confirm the products of the CH NH + NO reaction and to look into possible pathways to NH in methylamine oxidation.